This paper investigates voltage and reactive power control in distribution systems and how the presence of synchronous machine-based distributed generation (DG) affects the control. A proper coordination among the onload tap changer (OLTC), substation switched capacitors and feeder-switched capacitors in order to obtain optimum voltage and reactive power control is proposed. It is assumed that there is no communication link between the OLTC and the capacitors, a normal case in distribution system operation these days. The results indicate that the proposed method decreases the number of OLTC operations, losses, and voltage fluctuations in distribution systems, with and without DG present. The power-flow reversal due to the DG is shown not t...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...
A growing trend is connection of new renewable energy resources to the power system. Small and mediu...
Integration of small-scale electricity generators, known as distributed generation (DG), into the di...
This paper investigates voltage and reactive power control in distribution systems and how the prese...
This paper firstly investigates a local voltage and reactive power control (local control) in a dist...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
International audienceThe increase of integration of distributed generations (DG) requires the netwo...
This paper presents an optimal way to control steady-state voltage in distribution feeders using rea...
Voltage regulation by means of coordinated voltage control is one of the challenging aspects of dist...
In a distribution system, it is essential to maintain the voltage variation within a specified limit...
In a distribution system, it is essential to maintain the voltage variation within a specified limit...
Modern distribution systems, especially with the presence of distributed generation (DG) and distrib...
The recent introduction of the competitive electricity market in many countries has sparked a renew ...
In this thesis, the impact of distributed generation (DG) on steady state operation and control of p...
International audienceThis article deals with the evolution of voltage and reactive power control st...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...
A growing trend is connection of new renewable energy resources to the power system. Small and mediu...
Integration of small-scale electricity generators, known as distributed generation (DG), into the di...
This paper investigates voltage and reactive power control in distribution systems and how the prese...
This paper firstly investigates a local voltage and reactive power control (local control) in a dist...
This paper presents voltage and reactive power control methods in distribution systems in the presen...
International audienceThe increase of integration of distributed generations (DG) requires the netwo...
This paper presents an optimal way to control steady-state voltage in distribution feeders using rea...
Voltage regulation by means of coordinated voltage control is one of the challenging aspects of dist...
In a distribution system, it is essential to maintain the voltage variation within a specified limit...
In a distribution system, it is essential to maintain the voltage variation within a specified limit...
Modern distribution systems, especially with the presence of distributed generation (DG) and distrib...
The recent introduction of the competitive electricity market in many countries has sparked a renew ...
In this thesis, the impact of distributed generation (DG) on steady state operation and control of p...
International audienceThis article deals with the evolution of voltage and reactive power control st...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...
A growing trend is connection of new renewable energy resources to the power system. Small and mediu...
Integration of small-scale electricity generators, known as distributed generation (DG), into the di...